Ultracold collisions of He with highly rotationally-excited CO$_2$

Elastic and rotationally inelastic processes are studied for collisions of rotationally excited CO$_2$ with He. In the ultracold limit, complex scattering lengths were computed for rotational levels up to $j=200$ using the close-coupling method and the coupled-states approximation. As illustrative examples, some cross sections are also presented. This work was motivated by recent experimental efforts to generate highly excited CO$_2$ rotational states with an optical centrifuge [1] and the possibility of translationally cooling carbon dioxide with helium buffer-gas techniques. Experiments with rotationally excited and cold CO$_2$ may be feasible as the ratio of the real to imaginary components of the scattering length exceeds $\sim$30 for $j=200$. \\[4pt] [1] A. S. Mullin, L. Yuan, S. Teitelbaum, and A. Robinson, APS Bulletin, DAMOP Abstract E1.00016 (2009).